Land Rover and Jaguar announced a collaboration to develop a new ‘Range Rover Evoque _e’ research project that tests new hybrid and battery-electric vehicle (BEV) technology. The research required a total of £16.3 million (about $25 million at the current exchange rates), and was supported by UK’s innovation agency the Technology Strategy Board.
Along with Jaguar and Land Rover, the Evoque_e’s development required the an additional 12 partners, including: Zytek Automotive, GKN Driveline, Motor Design Limited, AVL, Drive System Design, Williams Advanced Engineering, Delta Motorsport, Tata Steel, Bristol University, Cranfield University and Newcastle University.
According to the first details we have, this collaboration will bring to the market three research vehicles: the next-generation powertrain concepts for a mild hybrid electric vehicle (MHEV); a Plug-In Hybrid (PHEV) and a Battery Electric Vehicle (BEV).
While no other details were revealed, Jaguar’s previous PHEV system revealed in the XJ_e plug-in hybrid , which combines a 2.0-liter turbocharged engine, with a 92-horsepower electric motor and a 12.8kWh Lithium Ion battery pack. Land Rover also revealed numerous "_e" projects, like the Range_e , which combined a 3.0-liter TDV6 diesel with an electric motor and an eight-speed ZF automatic transmission.
We’ll bring you all of the details once Land Rover releases them.
Click past the jump to read more about the Land Rover Evoque.
Land Rover unveiled the Evoque back in 2011, and it is produced in both three and five-door versions. The model has remained unchanged since then, but for the 2014 model year, the Evoque is updated with a new transmission, new driver assistance and convenience features, and new technology.
The base Evoque is offered with a choice of three different engines in the global market: a 150-horsepower, 2.2-liter diesel; a 190-horsepower, 2.2-litrer diesel; and a 2.0-liter gasoline engine with 240 horsepower. For the 2014 model year, buyers can combine all of the engines with an all-new nine-speed, ZF-sourced transmission and an "on-demand" four-wheel drive system.
Gallery Land Rover Range Rover Evoque
Jaguar Land Rover has announced its leadership of an advanced powertrain research and development programme for state-of-the-art, next-generation hybrid and battery-electric powertrain technologies based on the Range Rover Evoque platform.
‘Evoque_e’ is a two-year £16.3m UK government Technology Strategy Board project. Jaguar Land Rover will contribute £4m to the project and will lead a consortium of 12 selected partners – eight from industry and three universities.
The partners include Zytek Automotive, GKN Driveline, Motor Design Limited, AVL, Drive System Design, Williams Advanced Engineering, Delta Motorsport, Tata Steel, Bristol University, Cranfield University and Newcastle University.
Starting in October 2013, the unique collaboration will design, develop and build three research vehicles showcasing state-of-the-art, next-generation powertrain concepts for a mild hybrid electric vehicle (MHEV); a Plug-In Hybrid (PHEV) and a full Battery Electric Vehicle (BEV).
Peter Richings, Jaguar Land Rover Director Hybrids and Electrification,said: “The aim of the project is to develop technology platforms which are configurable and compatible within the architecture of an existing production vehicle. The modular technologies include single and multi-speed axle drives; modular battery packs and integrated power electronics, multi-machine, advanced control development and torque vectoring.
“The research teams will look at how the speed of the electric motor can be increased, to reduce its size, weight and cost while enhancing performance and durability. We will also look at the use of alternative materials to both reduce the use of rare earth materials and for systems optimisation.
“The outcome of the Evoque_e project will be new technologies with the potential for high volume production that are capable of delivering benchmark performance in terms of cost, weight and ustainable use of materials.”
As Britain’s biggest investor in automotive research and development, and the biggest investor in manufacturing R&D, Jaguar Land Rover is spending £2.75 billion in the year to March 2014 on product creation. Jaguar Land Rover showcased a number of the other collaborative research projects it is leading at the LCV 2013 event. These projects include the extreme downsizing of internal combustion engines, efficient management and storage of heat energies and weight reduction of engines through innovative new design concepts.
Commenting on these research projects, Dr Wolfgang Epple, Jaguar Land Rover Director Research and Technology said: “Jaguar Land Rover has ambitious plans for growth. We believe that the success of our global business – and the UK economy – lies in engineering and innovation. Our research programmes bring together some of the best engineering minds in the UK. With Evoque_e, we will build on previous Jaguar Land Rover technology demonstrators and show clearly the breadth of our capability and commitment in advanced powertrain technology.”
Jaguar Land Rover already collaborates with a number of leading universities in the UK on a range of technology and skills projects. More than half of Jaguar Land Rover’s research and advanced engineering team are based at Warwick University’s Warwick Manufacturing Group (WMG), to work collaboratively on key new technologies including energy storage, weight reduction and digital verification.
Antony Harper, Jaguar Land Rover Head of Research, illustrated the importance of this work and its benefits to the company and the UK economy, saying: “We are keenly aware that not all the clever people work for us and our collaborative research programmes harness the best of UK engineering innovation, to develop new and exciting technologies.
“The development of our business and our continuing investment in R&D has also encouraged inward investment into the UK, with our suppliers creating and funding their own research projects in UK universities. Technology Strategy Board funding allows us to multiply the effect of our investment and nurture UK-based technology investment, in supporting our work to address future needs, wants and legislation around the world.”